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We find the precession of the spin and the precession of the orbit for the two-body problem in general relativity with arbitrary masses, spins, and quadrupole moments. One notable result which emerges is that, in the case of arbitrary masses m₁ and m₂, the spin-orbit contribution to the spin precession of body 1 is a factor (m₂+{3) } ({m₁+m₂) } times what it would be for a test body moving in the field of a fixed central mass (m₁+m₂). Here denotes the reduced mass m₁{m₂} ({m₁+m₂) }. This contrasts with the result of Robertson for the periastron precession where the corresponding factor is unity. These results may be of interest for binary neutron stars and, in particular, for binary pulsars such as PSR 1913+16.
Barker et al. (Tue,) studied this question.